Intercropping sunflower and soybean in intensive farming systems evaluating yield advantage and effect on weed and insect assemblages

Intercropping sunflower and soybean in intensive farming systems evaluating yield advantage and effect on weed and insect assemblages

Agricultural intensification has encouraged both landscape homogenization and biodiversity decline in agro-ecosystems. Intercropping may over yield sole crops and simultaneously enhance landscape heterogeneity and planned and associated biodiversity in agroecosystems. Thus, we assessed yield advantage in sunflower/soybean intercrops in the Southern Pampas [Argentina]. We also expected weed and insect assemblages to differ between sole crops and intercrops and to be more diverse and productive in intercrops than in sole crops. Thus, we evaluated the effects of sunflower/soybean sole and intercrops on the composition, richness, and abundance of weed and insect assemblages. Sunflower/soybean sole crops and intercrops were sown in two experiments in the Southern Pampa during two consecutive years. Weeds and insects were surveyed and both crop yields and land equivalent ratio [LER] were calculated. Cover/abundance of weeds, abundance of insects and species frequency and richness of both taxa were also estimated. Weeds were classified according to life cycle [annual or perennial] and insects according to feeding habits [herbivores and non-herbivores]. Yield advantage of intercropping was indicated by LER values higher than 1 in both experiments, indicating that intercrops were more productive than sole crops. Species compositions of weed and insect assemblages differed between sole crops and intercrops because some particular species characterized each cropping system. Total species number was higher in intercrops than in sole crops. However, mean richness and abundance per plot was similar among treatments for weeds and similar or lower in intercrops than in the rest of treatments for insects. Here, we show that intercropping warm-season crops constitute a feasible alternative to promote heterogeneity within-fields and therefore sustain biodiversity in conventional cropping systems in temperate regions, which have become highly simplified after agricultural intensification such as in the Southern Pampa.

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Bibliographic Details
Main Authors: De la Fuente, Elba Beatriz, Suárez, Susana Amalia, Lenardis, Adriana Ester, Poggio, Santiago Luis
Format: Texto biblioteca
Language:spa
Subjects:AGRICULTURAL INTENSIFICATION, AGRO-ECOSYSTEMS, ARGENTINA, BIODIVERSITY, COMMUNITY COMPOSITION, CROP YIELD, DICOTYLEDON, GLYCINE MAX, HELIANTHUS, HEXAPODA, INSECT, INTENSIVE AGRICULTURE, INTERCROPPING, MULTIFUNCTIONAL AGRICULTURE, PAMPAS, SOYBEAN, WEED, ,
Online Access:http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=47114
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id KOHA-OAI-AGRO:47114
record_format koha
institution UBA FA
collection Koha
country Argentina
countrycode AR
component Bibliográfico
access En linea
En linea
databasecode cat-ceiba
tag biblioteca
region America del Sur
libraryname Biblioteca Central FAUBA
language spa
topic AGRICULTURAL INTENSIFICATION
AGRO-ECOSYSTEMS
ARGENTINA
BIODIVERSITY
COMMUNITY COMPOSITION
CROP YIELD
DICOTYLEDON
GLYCINE MAX
HELIANTHUS
HEXAPODA
INSECT
INTENSIVE AGRICULTURE
INTERCROPPING
MULTIFUNCTIONAL AGRICULTURE
PAMPAS
SOYBEAN
WEED

AGRICULTURAL INTENSIFICATION
AGRO-ECOSYSTEMS
ARGENTINA
BIODIVERSITY
COMMUNITY COMPOSITION
CROP YIELD
DICOTYLEDON
GLYCINE MAX
HELIANTHUS
HEXAPODA
INSECT
INTENSIVE AGRICULTURE
INTERCROPPING
MULTIFUNCTIONAL AGRICULTURE
PAMPAS
SOYBEAN
WEED
spellingShingle AGRICULTURAL INTENSIFICATION
AGRO-ECOSYSTEMS
ARGENTINA
BIODIVERSITY
COMMUNITY COMPOSITION
CROP YIELD
DICOTYLEDON
GLYCINE MAX
HELIANTHUS
HEXAPODA
INSECT
INTENSIVE AGRICULTURE
INTERCROPPING
MULTIFUNCTIONAL AGRICULTURE
PAMPAS
SOYBEAN
WEED

AGRICULTURAL INTENSIFICATION
AGRO-ECOSYSTEMS
ARGENTINA
BIODIVERSITY
COMMUNITY COMPOSITION
CROP YIELD
DICOTYLEDON
GLYCINE MAX
HELIANTHUS
HEXAPODA
INSECT
INTENSIVE AGRICULTURE
INTERCROPPING
MULTIFUNCTIONAL AGRICULTURE
PAMPAS
SOYBEAN
WEED
De la Fuente, Elba Beatriz
Suárez, Susana Amalia
Lenardis, Adriana Ester
Poggio, Santiago Luis
Intercropping sunflower and soybean in intensive farming systems evaluating yield advantage and effect on weed and insect assemblages
description Agricultural intensification has encouraged both landscape homogenization and biodiversity decline in agro-ecosystems. Intercropping may over yield sole crops and simultaneously enhance landscape heterogeneity and planned and associated biodiversity in agroecosystems. Thus, we assessed yield advantage in sunflower/soybean intercrops in the Southern Pampas [Argentina]. We also expected weed and insect assemblages to differ between sole crops and intercrops and to be more diverse and productive in intercrops than in sole crops. Thus, we evaluated the effects of sunflower/soybean sole and intercrops on the composition, richness, and abundance of weed and insect assemblages. Sunflower/soybean sole crops and intercrops were sown in two experiments in the Southern Pampa during two consecutive years. Weeds and insects were surveyed and both crop yields and land equivalent ratio [LER] were calculated. Cover/abundance of weeds, abundance of insects and species frequency and richness of both taxa were also estimated. Weeds were classified according to life cycle [annual or perennial] and insects according to feeding habits [herbivores and non-herbivores]. Yield advantage of intercropping was indicated by LER values higher than 1 in both experiments, indicating that intercrops were more productive than sole crops. Species compositions of weed and insect assemblages differed between sole crops and intercrops because some particular species characterized each cropping system. Total species number was higher in intercrops than in sole crops. However, mean richness and abundance per plot was similar among treatments for weeds and similar or lower in intercrops than in the rest of treatments for insects. Here, we show that intercropping warm-season crops constitute a feasible alternative to promote heterogeneity within-fields and therefore sustain biodiversity in conventional cropping systems in temperate regions, which have become highly simplified after agricultural intensification such as in the Southern Pampa.
format Texto
topic_facet
AGRICULTURAL INTENSIFICATION
AGRO-ECOSYSTEMS
ARGENTINA
BIODIVERSITY
COMMUNITY COMPOSITION
CROP YIELD
DICOTYLEDON
GLYCINE MAX
HELIANTHUS
HEXAPODA
INSECT
INTENSIVE AGRICULTURE
INTERCROPPING
MULTIFUNCTIONAL AGRICULTURE
PAMPAS
SOYBEAN
WEED
author De la Fuente, Elba Beatriz
Suárez, Susana Amalia
Lenardis, Adriana Ester
Poggio, Santiago Luis
author_facet De la Fuente, Elba Beatriz
Suárez, Susana Amalia
Lenardis, Adriana Ester
Poggio, Santiago Luis
author_sort De la Fuente, Elba Beatriz
title Intercropping sunflower and soybean in intensive farming systems evaluating yield advantage and effect on weed and insect assemblages
title_short Intercropping sunflower and soybean in intensive farming systems evaluating yield advantage and effect on weed and insect assemblages
title_full Intercropping sunflower and soybean in intensive farming systems evaluating yield advantage and effect on weed and insect assemblages
title_fullStr Intercropping sunflower and soybean in intensive farming systems evaluating yield advantage and effect on weed and insect assemblages
title_full_unstemmed Intercropping sunflower and soybean in intensive farming systems evaluating yield advantage and effect on weed and insect assemblages
title_sort intercropping sunflower and soybean in intensive farming systems evaluating yield advantage and effect on weed and insect assemblages
url http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=47114
http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=
work_keys_str_mv AT delafuenteelbabeatriz intercroppingsunflowerandsoybeaninintensivefarmingsystemsevaluatingyieldadvantageandeffectonweedandinsectassemblages
AT suarezsusanaamalia intercroppingsunflowerandsoybeaninintensivefarmingsystemsevaluatingyieldadvantageandeffectonweedandinsectassemblages
AT lenardisadrianaester intercroppingsunflowerandsoybeaninintensivefarmingsystemsevaluatingyieldadvantageandeffectonweedandinsectassemblages
AT poggiosantiagoluis intercroppingsunflowerandsoybeaninintensivefarmingsystemsevaluatingyieldadvantageandeffectonweedandinsectassemblages
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spelling KOHA-OAI-AGRO:471142022-08-04T12:14:56Zhttp://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=47114http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=AAGIntercropping sunflower and soybean in intensive farming systems evaluating yield advantage and effect on weed and insect assemblagesDe la Fuente, Elba BeatrizSuárez, Susana AmaliaLenardis, Adriana EsterPoggio, Santiago Luistextspaapplication/pdfAgricultural intensification has encouraged both landscape homogenization and biodiversity decline in agro-ecosystems. Intercropping may over yield sole crops and simultaneously enhance landscape heterogeneity and planned and associated biodiversity in agroecosystems. Thus, we assessed yield advantage in sunflower/soybean intercrops in the Southern Pampas [Argentina]. We also expected weed and insect assemblages to differ between sole crops and intercrops and to be more diverse and productive in intercrops than in sole crops. Thus, we evaluated the effects of sunflower/soybean sole and intercrops on the composition, richness, and abundance of weed and insect assemblages. Sunflower/soybean sole crops and intercrops were sown in two experiments in the Southern Pampa during two consecutive years. Weeds and insects were surveyed and both crop yields and land equivalent ratio [LER] were calculated. Cover/abundance of weeds, abundance of insects and species frequency and richness of both taxa were also estimated. Weeds were classified according to life cycle [annual or perennial] and insects according to feeding habits [herbivores and non-herbivores]. Yield advantage of intercropping was indicated by LER values higher than 1 in both experiments, indicating that intercrops were more productive than sole crops. Species compositions of weed and insect assemblages differed between sole crops and intercrops because some particular species characterized each cropping system. Total species number was higher in intercrops than in sole crops. However, mean richness and abundance per plot was similar among treatments for weeds and similar or lower in intercrops than in the rest of treatments for insects. Here, we show that intercropping warm-season crops constitute a feasible alternative to promote heterogeneity within-fields and therefore sustain biodiversity in conventional cropping systems in temperate regions, which have become highly simplified after agricultural intensification such as in the Southern Pampa.Agricultural intensification has encouraged both landscape homogenization and biodiversity decline in agro-ecosystems. Intercropping may over yield sole crops and simultaneously enhance landscape heterogeneity and planned and associated biodiversity in agroecosystems. Thus, we assessed yield advantage in sunflower/soybean intercrops in the Southern Pampas [Argentina]. We also expected weed and insect assemblages to differ between sole crops and intercrops and to be more diverse and productive in intercrops than in sole crops. Thus, we evaluated the effects of sunflower/soybean sole and intercrops on the composition, richness, and abundance of weed and insect assemblages. Sunflower/soybean sole crops and intercrops were sown in two experiments in the Southern Pampa during two consecutive years. Weeds and insects were surveyed and both crop yields and land equivalent ratio [LER] were calculated. Cover/abundance of weeds, abundance of insects and species frequency and richness of both taxa were also estimated. Weeds were classified according to life cycle [annual or perennial] and insects according to feeding habits [herbivores and non-herbivores]. Yield advantage of intercropping was indicated by LER values higher than 1 in both experiments, indicating that intercrops were more productive than sole crops. Species compositions of weed and insect assemblages differed between sole crops and intercrops because some particular species characterized each cropping system. Total species number was higher in intercrops than in sole crops. However, mean richness and abundance per plot was similar among treatments for weeds and similar or lower in intercrops than in the rest of treatments for insects. Here, we show that intercropping warm-season crops constitute a feasible alternative to promote heterogeneity within-fields and therefore sustain biodiversity in conventional cropping systems in temperate regions, which have become highly simplified after agricultural intensification such as in the Southern Pampa.AGRICULTURAL INTENSIFICATIONAGRO-ECOSYSTEMSARGENTINABIODIVERSITYCOMMUNITY COMPOSITIONCROP YIELDDICOTYLEDONGLYCINE MAXHELIANTHUSHEXAPODAINSECTINTENSIVE AGRICULTUREINTERCROPPINGMULTIFUNCTIONAL AGRICULTUREPAMPASSOYBEANWEEDNJAS - Wageningen Journal of Life Sciences

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